IoT‐based energy efficient and longer lifetime compression approach for healthcare applications

Abstract

AbstractA wireless body area networks (WBANs) is made up of tiny representations of the Internet of Medical Things (IoMT), which may be executed in the body or worn externally. Today, Internet of Things (IoT) has made it feasible to evaluate healthcare. The IoMT sends the patient's condition to the health center through the Internet rather than keeping them in the hospital all the time for therapy. IoT offers wireless connectivity between virtually anything and smart devices on one side. Data must be transferred to a doctor or other practitioner within the allotted time since this network works with medical and critical circumstances; this shows that routing is the most important problem. Routing is therefore viewed as a very significant difficulty in WBANs. The simulation findings show that, for the WBAN under consideration, the IoT‐based stable increased‐throughput multi‐hop protocol for link efficiency protocol has better throughput, end‐to‐end delay, and propagation delay compared to adaptive threshold‐based thermal‐aware energy‐efficient multi‐hop protocol. Higher packet delivery to the sink is a result of longer stability periods, which is very desirable for ongoing patient monitoring during the COVID‐19 pandemic. This research also identifies potential paths for the development of WBANs of the next generation and suggests ways to boost the selected communication systems' productivity in WBAN solutions for health monitoring.